UMLS:C0030305 - FACTA Search

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Query: UMLS:C0030305 (pancreatitis)
16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The study investigated the protective effect of a new synthetic protease inhibitor, E-3123, a 4-guanidinobenzoate methanesulphonate, on the exocrine pancreas in caerulein-induced pancreatitis of rats both in vivo and in vitro. Hyperamylasaemia, pancreatic oedema and congestion of amylase, as well as cathepsin B leakage from lysosomes and malate dehydrogenase leakage from mitochondria, were prevented by infusion of 5 mg/kg.h E-3123 particularly when infused for 2 h before and during 5 micrograms/kg.h caerulein infusion for 3.5 h. The results indicate that E-3123 plays its protective roles against pancreatitis in the subcellular compartments such as lysosomes and mitochondria, and that such a low molecular weight protease inhibitor as E-3123 may be clinically useful in the treatment of acute pancreatitis.
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PMID:A new synthetic protease inhibitor, E-3123, prevents lysosomal and mitochondrial fragility in rat caerulein-induced pancreatitis. 138 65

To evaluate the effects of acute pancreatitis on the energy metabolism of the liver and on the fragility of hepatic cells and subcellular organelles, we studies (1) the arterial blood ketone body ratio (BKBR) (aceto acetate/beta-hydroxy butyrate), which is in equilibrium with the free NAD+/NADH ratio in liver mitochondria; (2) the hepatic energy charge (EC) = (ATP + 1/2 ADP)/(ATP + ADP + AMP); (3) the cathepsin B leakage from hepatic lysosomes and the malate dehydrogenase leakage from hepatic mitochondria in vitro; and (4) the protective effects of prostaglandin E2 (PGE2) and a new synthetic protease inhibitor ONO 3307 on hepatic injury in acute pancreatitis induced in rats by a supramaximal dose of caerulein. Decreased BKBR and hepatic EC as well as increased hepatic lysosomal and mitochondrial fragility were observed in rats with this type of acute pancreatitis, and both PGE2 and ONO 3307 had a significant protective effect against hepatic injury in these rats, especially ONO 3307. These results suggest that impaired hepatic energy metabolism is closely related to increased hepatic lysosomal and mitochondrial fragility and that some proteases, which are derived from pancreatitis and are susceptible to inhibition by ONO 3307, seem to play an important pathological role in this liver injury induced by pancreatitis. Therefore, it is important to take care of the liver in patients with acute pancreatitis.
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PMID:Impaired hepatic energy metabolism in rat acute pancreatitis: protective effects of prostaglandin E2 and synthetic protease inhibitor ONO 3307. 152 49

The effects of hemorrhagic shock, aspirin, and ethanol on the biochemical and morphologic changes of experimental pancreatitis were evaluated. Pancreatitis was induced by infusing rats with a supramaximally stimulating dose (5 micrograms/kg/h) of caerulein. Hemorrhagic shock was established by removing sufficient blood to reduce mean arterial pressure by 30%, where it was maintained for 30 min. Aspirin (25 mg/kg) and ethanol (2 g/kg) were administered through an orogastric tube at 8-h intervals for 48 h. Hemorrhagic shock did not alter the degree of hyperamylasemia, pancreatic edema, cathepsin B subcellular redistribution, or in vitro LDH leakage that characterize this model of pancreatitis. Hemorrhagic shock did, however, worsen the morphologic evidence of pancreatic injury. Administration of aspirin with ethanol did not alter the degree of hyperamylasemia, pancreatic edema, or subcellular cathepsin B redistribution. Aspirin-ethanol pretreatment also did not alter the morphologic severity of pancreatitis. These observations indicate that hemorrhagic shock worsens the microscopic evidence of pancreatitis induced by supramaximal secretagogue stimulation. In contrast, aspirin-ethanol pretreatment, which might have been expected to increase pancreatic ductal permeability, did not alter the severity of this model of experimental pancreatitis.
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PMID:Effects of hemorrhagic shock, aspirin, and ethanol on secretagogue-induced experimental pancreatitis. 169 83

Lysosomal hydrolases such as cathepsin B are apically secreted from rabbit pancreatic acinar cells via a regulated as opposed to a constitutive pathway. Intravenous infusion of the cholecystokinin analogue caerulein results in highly correlated apical secretion of digestive and lysosomal enzymes, suggesting that they are discharged from the same presecretory compartment (zymogen granules). Lysosomal enzymes appear to enter that compartment as a result of missorting. After 7 h of duct obstruction is relieved, caerulein-stimulated apical secretion of cathepsin B and amylase is increased, but the ratio of cathepsin B to amylase secretion is not different than that following caerulein stimulation of animals never obstructed. These findings indicate that duct obstruction causes an increased amount of both lysosomal and digestive enzymes to accumulate within the secretagogue releasable compartment but that duct obstruction does not increase the degree of lysosomal enzyme missorting into that compartment. Pancreatic duct obstruction causes lysosomal hydrolases to become colocalized with digestive enzymes in organelles that, in size and distribution, resemble zymogen granules but that are not subject to secretion in response to secretagogue stimulation. These organelles may be of importance in the development of pancreatitis.
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PMID:Apical secretion of lysosomal enzymes in rabbit pancreas occurs via a secretagogue regulated pathway and is increased after pancreatic duct obstruction. 170 67

Earlier studies have reported that interstitial oedematous pancreatitis characterized by hyperamylasaemia can be seen during the early stage of stimulation of supramaximal dose of caerulein. The present study investigated the changes in both cellular and lysosomal fragility and the protective effects of a synthetic protease inhibitor gabexate mesilate (FOY) on this non-invasive model of experimental pancreatitis. The infusion of FOY (50 mg/kg/h) prevented the caerulein-induced increase in serum amylase and pancreatic oedema formation and reduced the elevated amylase content significantly. The administration of FOY with caerulein also reduced the increased lactic dehydrogenase (LDH) discharge significantly and inhibited the cathepsin B leakage from lysosomes in an in vitro incubation system. These results indicate that FOY plays its protective role at the subcellular level--that is, in lysosomes by inhibiting some proteases such as phospholipase A2. The importance of esterases in the pathogenesis of acute pancreatitis is demonstrated. This type of esterase inhibitor may be valuable clinically in the treatment of acute pancreatitis and these results also suggest the role of lysosomal fragility in the pathogenesis of progression of acute pancreatitis.
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PMID:Protection by gabexate mesilate (FOY) of the exocrine pancreas in rats with acute pancreatitis induced by a supramaximal dose of caerulein. 171 33

To explore the secretory profiles of lysosomal enzyme in pancreatic juice, we stimulated the secretion of lysosomal enzyme by intravenous pancreatic secretagogues and intraduodenal instillation of liquid meals in rats. Lysosomal hydrolases, such as cathepsin B, are secreted from the apices of pancreatic acinar cells via a hormone-regulated pathway, as in the secretion of pancreatic digestive enzymes. The intravenous infusion of the cholecystokinin analogue caerulein, or the intraduodenal administration of nutrients results in a closely related secretion of both amylase and cathepsin B from the apices of acinar cells, suggesting that they are discharged from the same presecretory compartment (zymogen granules). Lysosomal enzymes appear to enter into the secretory compartment as a result of malsorting, but the cause of this anomaly is not known. We found small amounts of lysosomal enzymes colocalized with digestive enzymes within zymogen granules in normal acinar cells and in normal pancreatic juice, suggesting some physiological roles of lysosomal enzymes in pancreatic ducts. Furthermore, lysosomal enzymes appear to play important roles in the pathogenesis of pancreatic disease, such as pancreatitis, from both inside and outside the pancreas, since cathepsin B can probably activate trypsinogen.
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PMID:Pancreatic lysosomal enzyme secretion via gut-hormone-regulated pathway in rats. 172 54

The present study investigated the protective effect of a new potent synthetic protease inhibitor, E-3123 (4-guanidinobenzoate methanesulfonate) on the exocrine pancreas in the caerulein induced experimental pancreatitis both in-vivo and in-vitro at 3 different doses (1, 2, and 5 mg/kg.hr). This protease inhibitor prevented hyperamylasemia, pancreatic edema, congestion of amylase, and both amylase and lactic dehydrogenase (LDH) discharge from dispersed acini, as well as cathepsin B leakage from lysosomes and malate dehydrogenase (MDH) leakage from mitochondria in a dose-dependent manner, particularly in doses of 2 and 5 mg/kg.hr. Furthermore, the combined prophylactic and therapeutic use of this agent seems to be very effective in preventing caerulein induced pancreatitis. These results indicate that E-3123 plays its protective roles against pancreatitis in the subcellular compartment: lysosomes, mitochondria, cellular or organella membranes. It is hoped that such a low molecular weight protease inhibitor as E-3123 will be clinically useful in the treatment of acute pancreatitis.
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PMID:A new synthetic protease inhibitor, E-3123, reduces organelle fragility of acinar cells in rat caerulein pancreatitis. 182 13

The complex events by which digestive enzyme zymogens and lysosomal hydrolases are segregated from each other and differentially transported to their respective membrane-bound intracellular organelles in the pancreas have been noted to be disturbed during the early stages of several models of experimental pancreatitis. As a result, lysosomal hydrolases such as cathepsin B are redistributed to the subcellular zymogen granule-rich fraction and lysosomal hydrolases as well as digestive enzyme zymogens are colocalized within large cytoplasmic vacuoles. The current study was designed to create an in vitro system that would reproduce this redistribution phenomenon. Our results indicate that cathepsin B redistribution occurs when rat pancreatic fragments are incubated with a supramaximally stimulating concentration of the cholecystokinin analogue caerulein along with plasma from an animal subjected to in vivo supramaximal caerulein stimulation. Neither the plasma nor a supramaximally stimulating concentration of caerulein, alone, is sufficient to induce in vitro cathepsin B redistribution. The ability of the plasma to induce in vitro cathepsin redistribution is dependent upon its content of a 10,000-30,000-D protein and is lost by exposure to protease inhibitors. In vitro cathepsin B redistribution also occurs when rat pancreatic fragments are incubated with plasma obtained from opossums with hemorrhagic necrotizing pancreatitis caused by bile/pancreatic duct ligation.
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PMID:A plasma protease which is expressed during supramaximal stimulation causes in vitro subcellular redistribution of lysosomal enzymes in rat exocrine pancreas. 201 May 41

Intracellular localization and enzymatic activities of lysosomal enzymes (cathepsin B, N-acetyl-beta-glucosaminidase, and beta-glucuronidase) were studied in control rats and after induction of caerulein pancreatitis. In control rats high enzymatic activities were found in the postnuclear 1000 g fraction (purified zymogen granules). The corresponding subcellular fraction in pancreatitis animals additionally contained larger secretory vacuoles and autophagosomes and revealed a marked increase in lysosomal enzyme activities. Immunolabelling studies at the ultrastructural level for trypsinogen and cathepsin B demonstrated a colocalization of lysosomal and digestive enzymes in zymogen granules in healthy controls. After induction of pancreatitis immunolabelling still demonstrated a colocalisation of cathepsin B and trypsinogen in secretory granules and newly formed Golgi-derived secretory vacuoles. Concomitantly appearing autophagosomes were, however, only labelled for cathepsin B. It is concluded that segregation of lysosomal and digestive enzymes is incomplete in normal acinar cells resulting in a colocalization in zymogen granules. In pancreatitis colocalization in secretory granules is maintained, whereas only lysosomal enzymes were sufficiently transferred into autophagic vacuoles. No indication for impaired mechanisms of molecular sorting of lysosomal and digestive enzymes in caerulein-induced pancreatitis was found.
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PMID:Localization of lysosomal and digestive enzymes in cytoplasmic vacuoles in caerulein-pancreatitis. 235 74

Both ethanol abuse and protein deficiency result in pancreatic injury. Moreover, these two variables frequently coexist. As lysosomal enzymes may play a role in the initiation of pancreatic injury, the aim of this study was to determine the effects of ethanol consumption and protein deficiency on pancreatic lysosomal stability. For 3 weeks, male Sprague-Dawley rats were match-fed (in groups of four) isocaloric amounts of one of the following liquid diets: (1) protein-sufficient diet, (2) protein-sufficient diet containing ethanol as 36% of the total energy, (3) protein-deficient diet, and (4) protein-deficient diet containing ethanol as 36% of energy. Pancreatic lysosomal stability was assessed by determining (a) latency, as indicated by the percentage increase in lysosomal enzyme activity in pancreatic homogenate induced by Triton X-100, and (b) by the percentage of lysosomal enzyme remaining in the supernatant after sedimentation of the lysosomal pellet from the pancreatic homogenate. Protein deficiency was associated with a decrease in latency and an increase in supernatant enzyme. Ethanol administration was associated with a decreased latency. Both protein-deficient and ethanol-fed animals exhibited higher pancreatic activities of cathepsin B, a lysosomal protease capable of activating trypsinogen. In addition, protein-deficient animals exhibited higher pancreatic activities of acid phosphatase, N-acetyl-glucosaminidase, and beta-glucuronidase. As lysosomal enzymes are postulated to play a role in the initiation of pancreatitis, these results suggest that ethanol consumption and protein deficiency may at least partly exert their toxic effects on the pancreas by altering pancreatic lysosomal stability and increasing the glandular content of cathepsin B.
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PMID:Both ethanol consumption and protein deficiency increase the fragility of pancreatic lysosomes. 236 35

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